水热法制备铜铁矿型氧化物材料*

PDF(1004 KB)

化学进展 ›› 2010, Vol. 22 ›› Issue (0203) : 352-357.

引用本文:	引用本文
周曙方晓东邓赞红李达. 水热法制备铜铁矿型氧化物材料^[J]. 化学进展, 2010, 22(0203): 352-357 Zhou Shu Fang Xiaodong Deng Zanhong Li Da. Preparation of Delafossite-Type Oxides by Hydrothermal Method[J]. Progress in Chemistry*, 2010, 22(0203): 352-357

综述与评论

扫码查看或转发全文

水热法制备铜铁矿型氧化物材料^*

周曙;方晓东^**;邓赞红;李达

作者信息 +

Preparation of Delafossite-Type Oxides by Hydrothermal Method

Zhou Shu; Fang Xiaodong^**; Deng Zanhong; Li Da

Author information +

文章历史 +

摘要

铜铁矿型氧化物材料在催化剂、发光材料、太阳能电池、臭氧传感器和p型透明导电氧化物等领域有广阔的应用前景，已成为研究的热点。本文阐述了水热法制备铜铁矿材料的基本原理和特点，介绍了水热法制备纳米铜铁矿材料的最新研究进展。

Abstract

Delafossite-type oxides have been attracted extensively attention due to it have promising applications such as catalysts, luminescent materials, batteries, ozone sensor and transparent p-type conducting oxides. This review presents the fundamental principles and features about hydrothermal preparation of delafossite-type oxides, introducing the progress of preparation of nanomaterials with delafossite-type oxides by hydrothermal method.

Contents
1 Introduction
2 Summarize of hydrothermal physical chemistry
2.1 Metal oxide hydration and aqueous cation speciation
2.2 Metal oxide acid-base character
3 Preparation of delafossite-type oxides by hydrothermal method
4 Preparation of delafossite-type oxides nanomaterials by hydrothermal method

关键词

水热法 / 铜铁矿型氧化物 / 纳米晶

Key words

hydrothermal method / delafossite-type oxides / nanocrystals

中图分类号： O614.1

参考文献

[ 1 ] 　Nie X L, Wei S H, Zhang S B. Phys. Rev. Lett. , 2002, 88:art. no. 066405
[ 2 ] 　Carcia P F, Shannon R D, Bierstedt P E, Flippen R B. J. Electrochem. Soc. , 1980, 127: 1974—1978
[ 3 ] 　Christopher J, Swamy C S. J. Mater. Sci. , 1992, 27:1353—1356
[ 4 ] 　Domen K, Ikeda S, Takata T, Tanaka A, HaraM, Kondo J N.App l. Energy, 2000, 67: 159—179
[ 5 ] 　Bessekhouad Y, Trari M, Doumerc J P, Int. J. Hydrogen Energy, 2003, 28: 43—48
[ 6 ] 　Doumerc J P, Parent C, Chao Z J, Le Flem G, Ammar A. J.Less-CommonMet. , 1989, 148: 333—337
[ 7 ] 　Jacob A, Parent C, Boutinaud P, Le Flem G, Doumerc J P,Ammar A, Elazhari M, Elaatmani M. Solid State Commun. ,1997, 103: 529—532
[ 8 ] 　Koumoto K, Koduka H, Seo W S. J. Mater. Chem. , 2001, 11:251—252
[ 9 ] 　Banerjee A N, Maity R, Ghosh P K, et al. Thin Solid Films,2005, 474: 261—266
[ 10 ] 　Park K, Ko K Y, Seo W S. J. Eur. Ceram. Soc. , 2005, 25:2219—2222
[ 11 ] 　Nagaura T. Prog. Batteries Solar Cells, 1982, 4: 105—107
[ 12 ] 　Bandara J, Yasomanee J P. Semicond. Sci. Technol. , 2007,22: 20—24
[ 13 ] 　Zheng X G, Taniguchi K, Takahashi A. App l. Phys. Lett. ,2004, 85: 1728—1729
[ 14 ] 　Benko F A, Koffyberg F. J. Phys. Chem. Solids, 1984, 45:57—59
[ 15 ] 　Kawazoe H, Yasukawa M, Hyodo H, Kurita M, Yanagi H, Hosono H. Nature, 1997, 389: 939—942
[ 16 ] 　Yanagi H, Hase T, Ibuki S, Ueda K, Hosono H. App l. Phys.Lett. , 2001, 78: 1583—1585
[ 17 ] 　Shannon R D, RogersD B, Prewitt C T. Inorg. Chem. , 1971,10: 713—718
[ 18 ] 　施尔畏( Shi E W) , 夏长泰(Xia C T) , 王步国(Wang B G) ,仲维卓( Zhong W Z) . 无机材料学报( Journal of Inorganic Materials) , 1996, 11 (2) : 193—206
[ 19 ] 　Byrappa K, Adschiri T. Progress in Crystal Growth and Characterization of Materials, 2007, 53: 117—166
[ 20 ] 　赵涛( Zhao T) , 孙蓉( Sun R) , 冷静(Leng J) , 杜如虚(Du R X) , 张治军( Zhang Z J) . 化学进展( Progress in Chemistry) ,2007, 19 (11) : 1460 —1466
[ 21 ] 　Diakonov I I, Pokrovski G S, Benezeth P, Schott J, Dandurand J L, Escalier J. Geochim. Cosmochim. Acta, 1997, 61:1333—1343
[ 22 ] 　Krylov O V. Catalysis by Nonmetals: Rules for Catalyst Selection; Physical Chemistry, a Series of Monographs, Vol. 17. New York: Academic Press, 1970
[ 23 ] 　Cotton F A, Wilkinson G, Bochmann M, Murillo C. Advanced Inorganic Chemistry, 6 th ed. New York: JohnWiley, 1998
[ 24 ] 　Lewis J I, Anthony C. Educ. Chem. , 1986, 23: 116—118
[ 25 ] 　Croft W J, Tombs N C, England R E. Acta Crystallogr. , 1964,17, 313
[ 26 ] 　Sheets W C, Mugnier E, Barnabe A, Marks T J, Poeppelmeier K R. Chem. Mater. , 2006, 18 (1) : 7—20
[ 27 ] 　Sheets W C, Stamp ler E S, Bertoni M I, Poeppelmeier K R. Inorg. Chem. , 2008, 47: 2696—2705
[ 28 ] 　Gong H, Wang Y, Luo Y. App l. Phys. Lett. , 2000, 76:3959—3961
[ 29 ] 　Banerjee A N, Chattopadhyay K K. J. App l. Phys. , 2005, 97:art. no. 084308
[ 30 ] 　高善明(Gao S M) , 张江( Zhang J ) , 王群(Wang Q) , 戴瑛(Dai Y) , 黄柏标(Huang B B) . 功能材料( Functional Material) , 2006, 1 (37) : 117—119
[ 31 ] 　Gao S M, Zhao Y, Gou P P, Chen N, Xie Y. Nanotechnology,2003, 14: 538—541
[ 32 ] 　Ahmad A, Jagadale T, Dhas V, Khan S, Patil S, Ogale S.Adv. Mater. , 2007, 19: 3295—3299
[ 33 ] 　Srinivasan R, Chavillon B, Doussier-Brochard C, Laurent Cario L, Paris M, Jobic S. J. Mater. Chem. , 2008, 18: 5647—5653
[ 34 ] 　Zhou S, Fang X D, Deng Z H, Li D, Dong W W, Tao R H,Meng G, Wang T, Zhu X B. Journal of Crystal Growth, 2008,310: 5375—5379